Ecological considerations of Antarctic ozone depletion

Deneb Karentz

doi:10.1017/S0954102091000032

Abstract

Springtime ozone depletion over Antarctica has been observed for over a decade. Associated with ozone depletion is an increase in the levels of biologically harmful ultraviolet-B (UV-B) that reach the earth's surface, a situation that has prompted much controversy about the ecological effects of this atmospheric phenomenon on Antarctic ecosystems. A major hindrance to assessing the ecological impact is lack of appropriate data on Antarctic systems before the present ozone depletion cycle began. In addition, certain physical features of the Antarctic environment (clouds, snow and ice) and the UV-B photobiology (repair processes and protective strategies) of endemic species can alter the potential biological effects of this environmental stress in, as yet, undetermined ways. Increases in incident UV levels will most likely result in changes in the taxonomic structure of communities. The effects of these changes on net productivity and trophic dynamics cannot be accurately assessed without quantifying ambient doeses of UV and characterizing the UV photobiology of individual species. Both the physical features of the springtime environment and the biological responses of endemic species must be considered in future research efforts to evaluate the biological consequences of the Antarctic ozone hole.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Karentz, Deneb Cleaver, James E. and Mitchell, David L. 1991. CELL SURVIVAL CHARACTERISTICS AND MOLECULAR RESPONSES OF ANTARCTIC PHYTOPLANKTON TO ULTRAVIOLET‐B RADIATION1. Journal of Phycology, Vol. 27, Issue. 3, p. 326.

Karentz, D. McEuen, F. S. Land, M. C. and Dunlap, W. C. 1991. Survey of mycosporine-like amino acid compounds in Antarctic marine organisms: Potential protection from ultraviolet exposure. Marine Biology, Vol. 108, Issue. 1, p. 157.

Lubin, Dan Mitchell, B. Greg Frederick, John E. Alberts, Amy D. Booth, C. R. Lucas, Timothy and Neuschuler, David 1992. A contribution toward understanding the biospherical significance of Antarctic ozone depletion. Journal of Geophysical Research: Atmospheres, Vol. 97, Issue. D8, p. 7817.

Puskeppeleit, Monika Quintern, Lothar E. el Naggar, Saad Schott, Jobst-Ulrich Eschweiler, Ute Horneck, Gerda and Bücker, Horst 1992. Long-Term Dosimetry of Solar UV Radiation in Antarctica with Spores of Bacillus subtilis . Applied and Environmental Microbiology, Vol. 58, Issue. 8, p. 2355.

Karentz, Deneb 1992. Ozone depletion and UV-B radiation in the Antarctic—Limitations to ecological assessment. Marine Pollution Bulletin, Vol. 25, Issue. 9-12, p. 231.

Smith, R. C. Prézelin, B. B. Baker, K. S. Bidigare, R. R. Boucher, N. P. Coley, T. Karentz, D. MacIntyre, S. Matlick, H. A. Menzies, D. Ondrusek, M. Wan, Z. and Waters, K. J. 1992. Ozone Depletion: Ultraviolet Radiation and Phytoplankton Biology in Antarctic Waters. Science, Vol. 255, Issue. 5047, p. 952.

Smith, Raymond C. 1993. The Role of the Stratosphere in Global Change. p. 473.

Post, Adele and Larkum, A.W.D. 1993. UV-absorbing pigments, photosynthesis and UV exposure in Antarctica: comparison of terrestrial and marine algae. Aquatic Botany, Vol. 45, Issue. 2-3, p. 231.

Holm-Hansen, Osmund Lubin, Dan and Helbling, E. Walter 1993. Environmental UV Photobiology. p. 379.

Vincent, Warwick F. Castenholz, Richard W. Downes, Malcolm T. and Howard‐Williams, Clive 1993. ANTARCTIC CYANOBACTERIA: LIGHT, NUTRIENTS, AND PHOTOSYNTHESIS IN THE MICROBIAL MAT ENVIRONMENT1. Journal of Phycology, Vol. 29, Issue. 6, p. 745.

1993. Welt im Wandel: Grundstruktur globaler Mensch-Umwelt-Beziehungen. p. 209.

Kinzie, R. A. 1993. Effects of ambient levels of solar ultraviolet radiation on zooxanthellae and photosynthesis of the reef coral Montipora verrucosa . Marine Biology, Vol. 116, Issue. 2, p. 319.

Neale, Patrick J. Lesser, Michael P. and Cullen, John J. 1994. Ultraviolet Radiation in Antarctica: Measurements and Biological Effects. Vol. 62, Issue. , p. 125.

Tevini, Manfred 1994. Progress in Botany. p. 174.

Cullen, John J. and Neale, Patrick J. 1994. Ultraviolet radiation, ozone depletion, and marine photosynthesis. Photosynthesis Research, Vol. 39, Issue. 3, p. 303.

Marchant, Harvey J. 1994. Antarctic Science. p. 95.

Lubin, Dan Ricchiazzi, Paul Gautier, Catherine and Whritner, Robert H. 1994. Ultraviolet Radiation in Antarctica: Measurements and Biological Effects. Vol. 62, Issue. , p. 53.

Davidson, A. T. and Marchant, H. J. 1994. Ultraviolet Radiation in Antarctica: Measurements and Biological Effects. Vol. 62, Issue. , p. 187.

Karentz, Deneb 1994. Ultraviolet Radiation in Antarctica: Measurements and Biological Effects. Vol. 62, Issue. , p. 93.

Häder, Donat-P. 1994. Stratospheric Ozone Depletion/UV-B Radiation in the Biosphere. p. 155.

Download full list

Article contents

Ecological considerations of Antarctic ozone depletion

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Ecological considerations of Antarctic ozone depletion

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests